Patent application number | Description | Published |
20100190047 | VARIABLE VOLUME CONTAINMENT FOR ENERGY STORAGE DEVICES - A stacked energy storage device (ESD) has at least two cell segments arranged in a stack. Each cell segment may have a first electrode unit having a first active material electrode, a second electrode unit having a second active material electrode, and an electrolyte layer between the active material electrodes. Variable volume containment may be used to control the inter-electrode spacing within each cell segment. In some embodiments, one or more dynamic flexible gaskets may be included in each cell segment to seal the electrolyte within the cell segment and to deform in preferred directions. In some embodiments, hard stops may set the inter-electrode spacing of the ESD. | 07-29-2010 |
20100203384 | ELECTRODE FOLDS FOR ENERGY STORAGE DEVICES - A stacked energy storage device (ESD) has at least two conductive substrates arranged in a stack. Each cell segment may have a first electrode unit having a first active material electrode, a second electrode unit having a second active material electrode, and an electrolyte layer between the active material electrodes. Each active material electrode may have a plurality of folded sections and planar sections to increase the ESD capacity, for example, by increasing number of interfaces within each cell segment. | 08-12-2010 |
20100304191 | ENERGY STORAGE DEVICES HAVING CELLS ELECTRICALLY COUPLED IN SERIES AND IN PARALLEL - A stacked energy storage device (ESD) has at least two cell segments arranged in a stack. Each cell segment may have a first electrode unit having a first active material electrode, a second electrode unit having a second active material electrode, and an electrolyte layer between the active material electrodes. The ESD includes at least two sub-stacks, where the elements of each respective sub-stack are electrically coupled in series with other elements of the sub-stack. The sub-stacks may be placed in a single stack, and the sub-stacks may be electrically coupled in parallel, in series, or both, with other sub-stacks to create an ESD with a particular voltage and current capacity. The entire stack may be contained by a single pair of end caps. | 12-02-2010 |
20110174084 | METHODS AND SYSTEMS FOR MEASURING STATE OF CHARGE - Charge information associated with an energy storage device may be determined from one or more kinetic responses of the energy storage device. Kinetic responses may include displacements, forces, pressures, or other kinetic properties, and changes in properties thereof. An indication device, such as a sensor, transducer, or other device, may be used to indicate kinetic responses. Charge information, measurements, or both, may be derived from indications of kinetic responses. Charging or discharging of an energy storage device may be controlled based on charge information. | 07-21-2011 |
20140370374 | VARIABLE VOLUME CONTAINMENT FOR ENERGY STORAGE DEVICES - A stacked energy storage device (ESD) has at least two cell segments arranged in a stack. Each cell segment may have a first electrode unit having a first active material electrode, a second electrode unit having a second active material electrode, and an electrolyte layer between the active material electrodes. Variable volume containment may be used to control the inter-electrode spacing within each cell segment. In some embodiments, one or more dynamic flexible gaskets may be included in each cell segment to seal the electrolyte within the cell segment and to deform in preferred directions. In some embodiments, hard stops may set the inter-electrode spacing of the ESD. | 12-18-2014 |
Patent application number | Description | Published |
20100185466 | SYSTEMS AND METHODS FOR TRACKING HEALTH-RELATED SPENDING FOR VALIDATION OF DISABILITY BENEFITS CLAIMS - A method for tracking health-related spending for validation of disability benefits claims includes receiving, by a Medicare Secondary Payer statute-compliance company, from an authorization server, an identification of an approved transaction initiated by a recipient of insurance settlement funds to acquire at least one of a healthcare-related service and a healthcare-related good by a provider, the recipient authorized to receive the at least one of the healthcare-related service and the healthcare-related good from the provider. The method includes tracking, by the Medicare Secondary Payer statute-compliance company, healthcare-related expenditures by the recipient. The method includes generating, by the Medicare Secondary Payer statute-compliance company, a statement of approved transactions. The method includes transmitting, by the Medicare Secondary Payer statute-compliance company, to a disability benefit provider, the statement of approved transactions. | 07-22-2010 |
20120143637 | SYSTEMS AND METHODS FOR TRACKING HEALTH-RELATED SPENDING FOR VALIDATION OF DISABILITY BENEFITS CLAIMS - A method for tracking health-related spending for validation of disability benefits claims includes receiving, by a Medicare Secondary Payer statute-compliance company, from an authorization server, an identification of an approved transaction initiated by a recipient of insurance settlement funds to acquire at least one of a healthcare-related service and a healthcare-related good by a provider, the recipient authorized to receive the at least one of the healthcare-related service and the healthcare-related good from the provider. The method includes tracking, by the Medicare Secondary Payer statute-compliance company, healthcare-related expenditures by the recipient. The method includes generating, by the Medicare Secondary Payer statute-compliance company, a statement of approved transactions. The method includes transmitting, by the Medicare Secondary Payer statute-compliance company, to a disability benefit provider, the statement of approved transactions. | 06-07-2012 |
Patent application number | Description | Published |
20080218941 | MULTIFUNCTIONAL POWER STORAGE DEVICE - A device and method for the fabrication of a power storage device or ultracapacitor manufactured from a process comprising nickel, chromium or stainless steel sintered on a metal substrate at a temperature of at least 850° C. in an inert atmosphere. The method further comprises stainless steel as the substrate. A catalyst of magnesium, manganese and iron combine with Nitric acid and de-ionized water may also be used. | 09-11-2008 |
20100304191 | ENERGY STORAGE DEVICES HAVING CELLS ELECTRICALLY COUPLED IN SERIES AND IN PARALLEL - A stacked energy storage device (ESD) has at least two cell segments arranged in a stack. Each cell segment may have a first electrode unit having a first active material electrode, a second electrode unit having a second active material electrode, and an electrolyte layer between the active material electrodes. The ESD includes at least two sub-stacks, where the elements of each respective sub-stack are electrically coupled in series with other elements of the sub-stack. The sub-stacks may be placed in a single stack, and the sub-stacks may be electrically coupled in parallel, in series, or both, with other sub-stacks to create an ESD with a particular voltage and current capacity. The entire stack may be contained by a single pair of end caps. | 12-02-2010 |
20110038099 | ULTRACAPACITOR POWER STORAGE DEVICE - The specification discloses a method of making an ultracapacitor including the steps of forming a first electrode by adhering CNT on a porous first substrate; placing a non conductive separator over the first electrode, forming a second electrode by adhering a second layer of CNT to a second substrate and placing over the first substrate, attaching a conductive tab to each electrode, rolling the combined electrodes, inserting the rolled electrodes into a metal can, attaching one conductive tab to the bottom of the can, adding an electrolyte to the can, attaching the second conductive tab to a lid of the can, and placing an insulator between the lid and the can. | 02-17-2011 |
20110059362 | METHODS FOR FORMING FOAMED ELECTRODE STRUCTURES - Electrode structures may include an electronically conductive foam in contact with an electronically conductive substrate. In some embodiments, the foam may be formed by coating a porous precursor material in contact with a substrate with an electronically conductive material and subsequently removing the precursor material. In some embodiments, the foam may be formed by removing a non-conductive component of a composite material in contact with a substrate, leaving a conductive component in contact with the substrate. Electrode structures may be coated with electronically conductive materials or sintered at elevated temperature to improve durability and conductivity. | 03-10-2011 |
20110070488 | HIGH PERFORMANCE ELECTRODES - Techniques, arrangements and compositions are provided to incorporate nanostructured materials into electrodes for energy storage devices. Materials such as, for example, carbon nanotubes, silicon nanowires, silicon carbide nanowires, zinc nanowires, and other materials may be used to modify electrode properties such as electronic conductivity, thermal conductivity, or durability, for example. In some embodiments, nanostructured materials may be added to electrode formulations such as, for example, slurries or powders. Nanostructured materials may be deposited directly onto active material particles or electrode components. In some embodiments, coatings may be used to assist in deposition. | 03-24-2011 |
20110174084 | METHODS AND SYSTEMS FOR MEASURING STATE OF CHARGE - Charge information associated with an energy storage device may be determined from one or more kinetic responses of the energy storage device. Kinetic responses may include displacements, forces, pressures, or other kinetic properties, and changes in properties thereof. An indication device, such as a sensor, transducer, or other device, may be used to indicate kinetic responses. Charge information, measurements, or both, may be derived from indications of kinetic responses. Charging or discharging of an energy storage device may be controlled based on charge information. | 07-21-2011 |
20130011720 | STACKING AND SEALING CONFIGURATIONS FOR ENERGY STORAGE DEVICES - An energy storage device is provided that includes a bipolar conductive substrate having a first side coupled to a first substack and a second side coupled to a second substack. The first and second substacks have a plurality of alternately stacked positive and negative monopolar electrode units. Each respective monopolar electrode unit has a first and second active material electrode layer on opposing sides of a conductive pathway. A separator is provided between adjacent monopolar electrode units. The conductive pathways of the positive monopolar electrode units are electronically coupled to form a positive tabbed current bus, and the conductive pathways of the negative monopolar electrode units are electronically coupled to form a negative tabbed current bus. The negative tabbed current bus of the first substack and the positive tabbed current bus of the second substack are coupled to the first and second side of the bipolar conductive substrate respectively. | 01-10-2013 |
20140272477 | HYBRID ELECTROCHEMICAL CELL SYSTEMS AND METHODS - Disclosed herein are systems, devices, and methods for a hybrid electrochemical cell which utilizes two different chemistries in the same cell. According to one aspect, the hybrid cell includes a first pair of electrode units which form a first electrochemical cell and a second pair of electrode units, which form a second electrochemical cell. The second electrochemical cell utilizes a different chemistry than the first electrochemical cells, but both chemistries share a common electrolyte. The hybrid cell further comprises a common electrolyte layer provided between each pair of electrodes. In certain implementations, the common electrolyte layer is a single cavity such that the electrolyte is shared between both the first and the second electrochemical cell. | 09-18-2014 |
20140272478 | METHODS AND SYSTEMS FOR MITIGATING PRESSURE DIFFERENTIALS IN AN ENERGY STORAGE DEVICE - Apparatus and methods are provided for energy storage devices capable of mitigating the pressure differentials between adjacent bi-polar units using a pressure equalization valve at a projection from a substrate of a bi-polar unit, which prevents the pressure equalization valve from being submerged by free liquid in the unit. | 09-18-2014 |
20140370374 | VARIABLE VOLUME CONTAINMENT FOR ENERGY STORAGE DEVICES - A stacked energy storage device (ESD) has at least two cell segments arranged in a stack. Each cell segment may have a first electrode unit having a first active material electrode, a second electrode unit having a second active material electrode, and an electrolyte layer between the active material electrodes. Variable volume containment may be used to control the inter-electrode spacing within each cell segment. In some embodiments, one or more dynamic flexible gaskets may be included in each cell segment to seal the electrolyte within the cell segment and to deform in preferred directions. In some embodiments, hard stops may set the inter-electrode spacing of the ESD. | 12-18-2014 |
20150236389 | HYBRID ELECTROCHEMICAL CELL SYSTEMS AND METHODS - Disclosed herein are systems, devices, and methods for a hybrid electrochemical cell which utilizes two different chemistries in the same cell. According to one aspect, the hybrid cell includes a first pair of electrode units which form a first electrochemical cell and a second pair of electrode units, which form a second electrochemical cell. The second electrochemical cell utilizes a different chemistry than the first electrochemical cells, but both chemistries share a common electrolyte. The hybrid cell further comprises a common electrolyte layer provided between each pair of electrodes. In certain implementations, the common electrolyte layer is a single cavity such that the electrolyte is shared between both the first and the second electrochemical cell. | 08-20-2015 |
Patent application number | Description | Published |
20090142655 | DISH SHAPED AND PRESSURE EQUALIZING ELECTRODES FOR ELECTROCHEMICAL BATTERIES - A stacked battery has at least two cell segments arranged in a stack. Each cell segment may have a first electrode unit having a first active material electrode, a second electrode unit having a second active material electrode, and an electrolyte layer between the active material electrodes. One or more gaskets may be included in each cell segment to seal the electrolyte within the cell segment. The electrode units may be “dish shaped” and may contain a pressure equalization valve to reduce electrode unit deflection and improve pressure equalization between cell segments. The pressure equalization valve may allow a gas to diffuse through adjacent cell segments and may substantially prevent electrolyte from diffusing through. | 06-04-2009 |
20100190047 | VARIABLE VOLUME CONTAINMENT FOR ENERGY STORAGE DEVICES - A stacked energy storage device (ESD) has at least two cell segments arranged in a stack. Each cell segment may have a first electrode unit having a first active material electrode, a second electrode unit having a second active material electrode, and an electrolyte layer between the active material electrodes. Variable volume containment may be used to control the inter-electrode spacing within each cell segment. In some embodiments, one or more dynamic flexible gaskets may be included in each cell segment to seal the electrolyte within the cell segment and to deform in preferred directions. In some embodiments, hard stops may set the inter-electrode spacing of the ESD. | 07-29-2010 |
20100203384 | ELECTRODE FOLDS FOR ENERGY STORAGE DEVICES - A stacked energy storage device (ESD) has at least two conductive substrates arranged in a stack. Each cell segment may have a first electrode unit having a first active material electrode, a second electrode unit having a second active material electrode, and an electrolyte layer between the active material electrodes. Each active material electrode may have a plurality of folded sections and planar sections to increase the ESD capacity, for example, by increasing number of interfaces within each cell segment. | 08-12-2010 |
Patent application number | Description | Published |
20100110836 | SYSTEM AND METHOD FOR DETECTING BATS AND THEIR IMPACT ON WIND FACILITIES - The present invention relates to a system and method for detecting bats from a remote location. In one aspect the invention provides a bat detection system comprising an upper detection unit connected to a base computer unit. The upper detection unit can be positioned on a vertical structure, and a second lower detection unit, or additional detection units, can also be positioned on the vertical structure. Each detection unit comprises a housing which is connected to, and contains, an audio detector. The base computer unit is enclosed by a housing and comprises a data processor, a data storage device, and a remote communication interface device. The data processor is operatively connected to the data storage device, remote communication interface device, and the audio detectors of any detection units positioned on the vertical structure. The base computer unit communicates with a remote computer transferring information regarding the bat sounds detected by the detection units. | 05-06-2010 |
20120300589 | SYSTEM AND METHOD FOR DETECTING BATS AND THEIR IMPACT ON WIND FACILITIES - The present invention relates to a system and method for detecting bats from a remote location. In one aspect the invention provides a bat detection system comprising an upper detection unit connected to a base computer unit. The upper detection unit can be positioned on a vertical structure, and a second lower detection unit, or additional detection units, can also be positioned on the vertical structure. Each detection unit comprises a housing which is connected to, and contains, an audio detector. The base computer unit is enclosed by a housing and comprises a data processor, a data storage device, and a remote communication interface device. The data processor is operatively connected to the data storage device, remote communication interface device, and the audio detectors of any detection units positioned on the vertical structure. The base computer unit communicates with a remote computer transferring information regarding the bat sounds detected by the detection units. | 11-29-2012 |